Systems and methods for indicating events in game video

ABSTRACT

In some embodiments, a system comprises a game controller module, a trigger satisfaction module, a metadata module, and a marker module. The game controller module may be configured to receive user control signals and execute gameplay based on the user control signals. The trigger satisfaction module may be configured to determine whether one or more events that occur during the gameplay satisfy one or more trigger conditions of a trigger. The metadata module may be configured to generate one or more trigger satisfaction indicators based on the satisfaction of the one or more trigger conditions of the trigger. The marker module may be configured to associate the one or more trigger satisfaction indicators with video of the gameplay to generate one or more game event markers to be used to enable a viewer to jump to one or more game segments associated with the trigger.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application claims the benefit of priority under 35 U.S.C. § 120 as a continuation from U.S. patent application Ser. No. 15/687,190 filed on Aug. 25, 2017, which is a continuation of U.S. Pat. No. 9,776,075 issued on Oct. 3, 2017, which claims benefit of priority under 35 U.S.C. § 119 to U.S. Provisional Patent Application No. 61/800,159 filed Mar. 15, 2013, the disclosures of which are hereby incorporated by reference in its entirety for all purposes.

BACKGROUND 1. Field of the Invention

The present invention generally relates to recording gameplay. More particularly, the invention relates to systems and methods for indicating events in game video.

2. Description of Related Art

Computer networks have revolutionized recording and sharing of gameplay. For example, player devices in the home (e.g., Xbox, Playstation, or Wii) may record and provide video for players and other viewers. Since player devices both execute and generate video of gameplay, it is possible to capture unique perspectives, record competitions, and/or significant events.

In many situations, however, the length of recordings (i.e., footage) generated by gameplay may be very long. Players who record a game video often find it difficult to edit long recordings to find or highlight interesting or significant events. For instance, a recording of a golf game may include depictions of many shots and greens as the game progresses. The depictions may appear boring and repetitive. Many portions of the video of the gameplay may not include the drama or action that characterizes more interesting moments. Similarly, a video recording of an RPG such as Dragon Age may include many minor fights and logistics that may appear repetitive to some viewers. Manually searching through long gameplay video for interesting events may require an editor to scan all of the footage to find the few interesting events that are worthy of flagging, showing to others, and/or storing. A person faced with searching and editing gameplay video of an activity may find the task tedious or may choose not to undertake the task at all.

SUMMARY OF EMBODIMENTS

In some embodiments, a system comprises a game controller module, a trigger satisfaction module, a metadata module, and a marker module. The game controller module may be configured to receive user control signals and execute gameplay based on the user control signals. The trigger satisfaction module may be configured to determine whether one or more events that occur during the gameplay satisfy one or more trigger conditions of a trigger. The metadata module may be configured to generate one or more trigger satisfaction indicators based on the satisfaction of the one or more trigger conditions of the trigger. The marker module may be configured to associate the one or more trigger satisfaction indicators with video of the gameplay to generate one or more game event markers to be used to enable a viewer to jump to one or more game segments associated with the trigger.

In some embodiments, the marker module provides the one or more trigger satisfaction indicators to a remote server to enable the remote server to generate the one or more game event markers. The system may further comprise a render module configured to render the video of the gameplay. Moreover, the system may further comprise a sharing module configured to provide access to the rendered video.

The one or more events that occur during the gameplay that satisfy the one or more trigger conditions of the trigger may include unlocking an achievement. The one or more events that occur during the gameplay that satisfy the one or more trigger conditions of the trigger may include receiving a manual event signal from a player of the game. The metadata module may be further configured to generate metadata which includes the one or more trigger satisfaction indicators. Further, the system may comprise a metadata control module configured to translate at least some of the metadata into one or more annotations. In some embodiments, the one or more annotations include a label describing the one or more game segments that is viewable to the viewer. The one or more annotations may include the game event markers to be associated with at least one position on a timeline of the video of the gameplay.

An exemplary method comprises receiving user control signals and execute gameplay based on the user control signals, determining whether one or more events that occur during the gameplay satisfy one or more trigger conditions of a trigger, generating one or more trigger satisfaction indicators based on the satisfaction of the one or more trigger conditions of the trigger, and associating the one or more trigger satisfaction indicators with video of the gameplay to generate one or more game event markers to be used to enable a viewer to jump to one or more game segments associated with the trigger.

In various embodiments, the method further comprises providing the one or more trigger satisfaction indicators to a remote server to enable the remote server to generate the one or more game event markers. The method may comprise rendering the video of the gameplay. Further, the method may comprise providing access to the rendered video. The one or more events that occur during the gameplay that satisfy the one or more trigger conditions of the trigger may include unlocking an achievement. The one or more events that occur during the gameplay that satisfy the one or more trigger conditions of the trigger may include receiving a manual event signal from a player of the game.

In some embodiments, the method further comprises generating metadata which includes the one or more trigger satisfaction indicators. The method may comprise translating at least some of the metadata into one or more annotations. The one or more annotations may include a label describing the one or more game segments that is viewable to the viewer. The one or more annotations may include the game event markers to be associated with at least one position on a timeline of the video of the gameplay.

An exemplary non-transitory computer readable media may comprise executable instructions. The instructions may be executable by a processor to perform a method. The method may comprise receiving user control signals and execute gameplay based on the user control signals, determining whether one or more events that occur during the gameplay satisfy one or more trigger conditions of a trigger, generating one or more trigger satisfaction indicators based on the satisfaction of the one or more trigger conditions of the trigger, and associating the one or more trigger satisfaction indicators with video of the gameplay to generate one or more game event markers to be used to enable a viewer to jump to one or more game segments associated with the trigger.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram of different player and viewer devices in some embodiments.

FIG. 2 is a block diagram of a player device in some embodiments.

FIG. 3 is a block diagram of a processing system in some embodiments.

FIG. 4 is a flowchart for broadcasting and identifying content of potential interest in gameplay video in some embodiments.

FIG. 5 is a flowchart for generating annotations based on metadata from the player device to indicate events of potential interest in gameplay video in some embodiments.

FIG. 6 is a depiction of a timeline associated with a gameplay video in some embodiments.

FIG. 7 depicts a video player for gameplay video with a timeline and annotations indicating events of potential interest in some embodiments

FIG. 8 is a block diagram of an exemplary digital device.

DETAILED DESCRIPTION OF EMBODIMENTS

In various embodiments, video of gameplay of a game (e.g., a game being played on a console such as an Xbox, on a smartphone, or on a personal computer) may be shared with others (e.g., by Video on Demand (VOD)). For example, during gameplay, video of the gameplay may be both rendered and automatically recorded. The video may be stored and shared by a media system such as YouTube. In some embodiments, a system may enable appending metadata to videos to enable media systems or any digital device to create a video timeline identifying events of interest in the gameplay video.

A player may play a game on a digital device (e.g., a player device) and provide the video of gameplay to be broadcast or otherwise provided to either the public or select individuals (or groups of individuals). Since gameplay video may be very long unless edited, techniques are described herein to allow identification of times, positions, or portions of events of interest in the video. For example, the identified times, positions, or portions in the video may appear as annotations or indications in a timeline associated with a video of gameplay. A viewer may then utilize the annotations or indications to jump to the events in the video.

Identifying times, positions, or portions in gameplay video may be performed in many different ways. In some embodiments, a game may be associated with a set of triggers. Each trigger defines one or more trigger conditions. A trigger may be satisfied based on occurrences in gameplay that meet the trigger conditions defined by the trigger. Once a trigger is satisfied, a timestamp or any other metric may be determined to identify times, positions, or portions in gameplay video to indicate an event of interest. A trigger may be satisfied in any number of ways, including, for example, the accomplishment of an achievement, completing a goal, earning an award, or the like. A trigger may also be satisfied by, in some embodiments, a player manually indicating that they wish to mark a timeline of the video or otherwise distinguish the event.

In various embodiments, the player device may provide metadata associated with satisfied triggers to a processing system. All or some of the metadata may be associated with satisfaction of the triggers. For example, all or some of the metadata may include trigger satisfaction indicators (e.g., the timestamp or other metric). The trigger satisfaction indicators may be associated with times, positions, or portions of gameplay video.

In some embodiments, the processing system may not receive the video, rather the processing system may assist in generating annotations or the like which may be utilized to mark or otherwise place indications of events of interest in a timeline associated with the gameplay video. For example, the gameplay video may be provided to a media system. The processing system may receive the metadata, generate annotations, and provide the annotations to the media system to mark the timeline of the gameplay video to indicate the events.

FIG. 1 is an environment 100 of different player and viewer devices 104-114 in some embodiments. The environment 100 may include a laptop 104, game console (e.g., Sony Playstation) 106, game console (Microsoft Xbox) 108, smartphone 110, smart television 112, and/or personal computer 114 in communication over a communication network 102 with the media system 116 and/or the processing system 118. Any of devices 104-114 may be player devices (i.e., a digital device that is used to play a game), viewer devices (i.e., a digital device that is used to view video of at least part of a game) or both. A digital device is any device with a processor and memory. Digital devices are further described regarding FIG. 8.

Player and viewer devices 104-114 represent a variety of different digital devices that may engage in gameplay (e.g., as player devices) and/or may view video (e.g., as viewer devices). For example, player device 104 may be a laptop, notebook, media device, tablet, or any other mobile device capable of playing a game or viewing video. Player devices 106 and 108 may be a Sony Playstation and a Microsoft Xbox, respectively, or may include any other game console (e.g., such as a Nintendo Wii). Player device 110 maybe a smartphone, smart watch, GoogleGlass, a personal communication device, or wearable technology capable of playing a game, assisting in playing a game, viewing video, or assisting in viewing video. Player device 112 may be a smart television or any other smart appliance capable of playing a game, assisting in playing a game, viewing video, or assisting in viewing video. Player device 114 may be a personal computer or any other computing device.

In various embodiments, any of the player and viewer devices 104-114 may play a game and generate video. The video may be provided to the media system 116. The media system 116 may comprise any number of digital devices configured to provide access or broadcast gameplay video. In one example, video of gameplay may be provided to the media system 116 during gameplay. In another example, the video may be provided to the media system 116 after gameplay, after a delay, and/or as network connectivity allows (e.g., depending upon a quality of services (QoS)). Video of gameplay (i.e., gameplay video) may be automatically streamed and/or updated to any number of media systems 116 (e.g., the gameplay video may be broadcast or available to other users through the media system 116 without requiring the player's interaction or input). The media system 116 may include, but not be limited to, Twitch TV and YouTube. In various embodiments, any or all of the player and viewer devices 104-114 may initiate providing video without player intervention.

In various embodiments, when a game is selected for play, a player device (e.g., player device 108) retrieves a trigger profile (e.g., from the processing system 118). The trigger profile may comprise any number of triggers, each trigger defining one or more trigger conditions. Any number of the triggers may be associated with the game. In some embodiments, the trigger profile is retrieved from a plurality of trigger profiles based on the selected game.

A trigger associated with the game Tiger Woods PGA Tour may define trigger condition that is satisfied when the player shoots a hole-in-one or eagles in golf. A trigger associated with the game Battlefield 3 may define a trigger condition that is satisfied when a player makes a 1,000 meter headshot with a sniper rifle. Those skilled in the art will appreciate that any number of triggers may define trigger conditions based on a particular game, a game type (e.g., sport, first person shooter), and/or game version (e.g., Tiger Woods PGA Tour 13 and Tiger Woods PGA Tour 14), for example.

When a trigger is satisfied by an occurrence during gameplay which satisfies one or more trigger conditions, the player device may generate a trigger satisfaction indicator. The trigger satisfaction indicator may be related to the gameplay video and indicate at what time, position, or portion of the gameplay video that an event that satisfied the trigger conditions occurred. The player device may provide metadata including the trigger satisfaction indicator to the processing system 118 (e.g., via the communication network 102). The metadata may further include a video identifier to identify the video provided to the media system 116, a game identifier, player identifier or the like (further described herein).

The processing system 118 is any number of digital devices configured to assist in indicating events in a gameplay video. In various embodiments, the processing system 118 receives metadata from the player device and generates annotations based on the metadata. The annotations may include game event markers or may include instructions for a media system 116 to generate the game event markers on a timeline associated with the gameplay video to allow viewers to jump to points of potential interest in the gameplay video. Other annotations may include labels for points of potential interest (e.g., “Hole in One!”), titles of video, the indicators of potential interest in a timeline associated with the video, information contained in bubbles to appear over the video, information regarding whether the video is to be shared and/or the other viewers that the video is to be shared with, or the like. In some embodiments, the processing system 118 may provide annotations to the media system 116 utilizing an API. In some embodiments, the processing system 118 provides the gameplay video.

The communication network 102 may include a computer network or combination of user networks (e.g., a combination of wireless and wired networks). The communication network 102 may include technologies such as Ethernet, 802.11x, worldwide interoperability for microwave access WiMAX, 2G, 3G, 4G, CDMA, GSM, LTE, digital subscriber line (DSL), and/or the like. The communication network 102 may further include networking protocols such as multiprotocol label switching (MPLS), transmission control protocol/Internet protocol (TCP/IP), User Datagram Protocol (UDP), hypertext transport protocol (HTTP), simple mail transfer protocol (SMTP), file transfer protocol (FTP), and/or the like. The data exchanged over the communication network 102 can be represented using technologies and/or formats including hypertext markup language (HTML) and extensible markup language (XML).

Although player and viewer devices 104-114 are depicted in environment 100, there may be any number of digital devices. Further, there may be more or fewer different types of digital devices (e.g., the digital devices may comprise one or more game consoles, smartphones, smart televisions and/or the like). In some embodiments, any number of the player and viewer devices 104-114 may be generating video of gameplay of one or more games and any number of the player and viewer devices 104-114 may be view video of the gameplay.

FIG. 2 is a block diagram of a player device 200 in some embodiments. The player device may, for example, be or include any of player or viewer devices 104-114. The player device 200 comprises a game controller module 202, an interaction module 204, a simulation module 206, a game state module 208, a render module 210, a video module 212, a trigger satisfaction module 214, a metadata generation module 216, a game and trigger storage 218, a metadata storage 220, and a video storage 222.

The game controller module 202 may initiate and or control gameplay of a game. In some embodiments, the game controller module 202 receives a selection of a game from a player. The game controller module 202 may execute the selected game and/or control gameplay. In various embodiments, the game controller module 202 may receive user control signals to control or influence gameplay.

The interaction module 204 may provide an interface to the player to allow the player to control gameplay, provide personal settings, receive user control signals, or the like. In various embodiments, the interaction module 204 provides the game controller module 202 with the player control signals received from, for example, an input device (e.g., a controller, keyboard, mouse, motion detector, camera, touch screen and/or sensor).

The simulation module 206 may simulate gameplay based on game rules and inputs (e.g., user control signals) by any number of players. In various embodiments, the simulation module 206 is utilized in turn by turn games and may not be utilized in other games.

The simulation module 206, for example, may determine the outcome of any number of variables including game logic (e.g., based on game rules from the game and trigger storage 218) as well as choices by any number of players. In various embodiments, the simulation may be performed by another digital device. For example, the player device 200 may provide the selection(s) and/or the current game state to the processing system 118 via the communication network 102. The processing system 118 may perform the simulation based game rules, the player selection(s), and the current game state. In various embodiments, the processing system 118 and/or any digital device may provide the selection(s) and/or current game state to any digital device which may perform the simulation.

The game state module 208 may maintain, update, and/or retrieve a game state associated with the activated game. In some embodiments, the game state module 208 may retrieve a game state from a game and trigger storage 218. In some embodiments, the game state module 208 provides the game state to the simulation module 206 and/or the game controller module 202 and the interaction module 204 may then provide user interfaces to a player requesting input and/or selection(s) associated with the game.

The game state module 208 may maintain a current state of gameplay. Based on simulation results from the simulation module 206 and/or selection(s) received from the user, the game state module 208 may update the current game state to a new game state. The updated game state may subsequently be provided, in some embodiments, to one or more other processing systems 118 or other digital devices. In various embodiments, game states are not provided between devices but rather the game state is individually updated on each device.

During or after simulation, a simulation result may be rendered. In various embodiments, the render module 210 renders video to depict the simulation result(s) or any executed gameplay. The gameplay video and/or images from the rendering may be displayed on the player device 200 and/or other digital devices (e.g., the rendering may be displayed on other digital devices in a multiplayer game or the rendering may be provided to a media system to allow others to view gameplay as described herein).

In some embodiments, the video module 212 may provide to or display video from the render module 210 on the player device 200. The video module 212 may stream and/or upload video and/or images based on the rendering of the render module 210. For example, the video module 212 may broadcast, upload, or otherwise provide the video and/or images to the media system 116 and/or one or more of the player devices. In another example, the video module 212, render module 210, the processing system 118, and/or the media system 116 may perform multiple renderings from different viewpoints and provide video and/or audio to different user devices. Rendered video may include video and/or audio.

In various embodiments, the video module 212 may store the video in video storage 222 for later playback by the player of the player device 200. In some embodiments, the video module 212 stores all or some of the video in the video storage 222 until all or some of the video may be provided to another digital device (e.g., media system 116).

In some embodiments, the video module 212 automatically provides the gameplay video to the media system 116. In one example, the player may opt-out of automatically providing the gameplay video to the media system 116 and/or opt out of broadcasting the gameplay video. In various embodiments, the video module 212 may require the player to agree or opt-in to broadcast or provide the gameplay video.

The trigger satisfaction module 214 may retrieve one or more triggers associated with a game and may determine if trigger conditions associated with at least one trigger are satisfied based on occurrences during gameplay.

When a game is selected, the trigger satisfaction module 214 may retrieve a trigger profile from the game and trigger storage 218 based on the selected game. The trigger profile may comprise any number of triggers, each trigger defining one or more trigger conditions. Any number of the triggers may be associated with the selected game.

In various embodiments, the trigger satisfaction module 214 may monitor gameplay to detect occurrences that satisfy trigger conditions (e.g., the trigger satisfaction module 214 may determine when trigger conditions are satisfied such that the trigger satisfaction module 214 may detect when a trigger is satisfied). When a trigger is satisfied by an occurrence during gameplay (e.g., the occurrence satisfying one or more trigger conditions), the trigger satisfaction module 214 may generate a trigger satisfaction indicator. The trigger satisfaction indicator may be related to the gameplay video and indicate at what time, position, or portion (e.g., segment) in the gameplay video generated by the video module 212 that an event that satisfied the trigger conditions occurred. The trigger satisfaction indicator may indicate a time, position, or segment in the gameplay video of an event that satisfied at least one trigger.

In various embodiments, the trigger satisfaction module 214 may identify the trigger that was satisfied and/or the type of trigger that was satisfied and provide identifiers to the metadata generation module 216. In some embodiments, the trigger satisfaction module 214 may retrieve the trigger identifier, type of trigger, description or other identifying information describing the trigger that was satisfied from the metadata storage 220 and/or the game and trigger storage 218. For example, the trigger satisfaction module 214 may provide an identifier that a trigger was satisfied as well as a description of the trigger “e.g., Quadrakill.” The trigger satisfaction module 214 may also add information regarding gameplay such as the player name, type of game, or any other information. For example, the trigger satisfaction module 214 may provide a description of the satisfied trigger as “Mikulthegreat Quadrakill” for inclusion in metadata to be provided to the processing system 118.

The metadata generation module 216 may generate metadata including or based on the trigger satisfaction indicators from the trigger satisfaction module 214 as well as any other information. In various embodiments, the metadata generated by the metadata generation module 216 includes a game identifier that identifies the game, a gameplay video identifier that may associate the metadata with a specific video, identification information regarding the media system 116 that received the video, or the like. In some embodiments, the metadata includes an identifier that a trigger was satisfied and/or a description of the trigger with any other information. The metadata may further include a video identifier to identify the video provided to the media system 116, a game identifier, player identifier or the like (further described herein).

The metadata generation module 216 may provide the metadata to the processing system 118 (e.g., via the communication server 102). In various embodiments, the metadata generation module 216 stores all or some of the metadata in the metadata storage 220.

In one example, metadata generation module 216 may provide metadata to the processing system 118 during gameplay. In another example, the metadata may be provided to the processing system 118 after gameplay, after a delay, and/or as network connectivity allows (e.g., depending upon a quality of services (QoS)). Metadata associated with gameplay may be automatically streamed and/or updated to any number of processing systems 118. In various embodiments, any or all of the player and viewer devices 104-114 may initiate providing metadata without player intervention.

The game and trigger storage 218, the metadata storage 220, and the video storage 222 may comprise any number and any type of storage devices and/or data structures.

It will be appreciated that a “module” as referred to herein may comprise software, hardware, firmware, and/or circuitry. In one example, one or more software programs comprising instructions capable of being executable by a processor may perform one or more of the functions of the modules described herein. In another example, circuitry may perform the same or similar functions. Alternative embodiments may comprise more, less, or functionally equivalent modules and still be within the scope of present embodiments.

FIG. 3 is a block diagram of a processing system 118 in some embodiments. The processing system comprises a metadata control module 302, an annotation generation module 304, a timeline indicator module 306, an annotation editor module 308, a media communication module 310, a trigger profile module 312, a metadata game profile storage 314, and a user preferences storage 316.

The metadata control module 302 may receive metadata from the player device 200 (e.g., from the metadata generation module 216). The metadata may comprise any kind of information. For example, the metadata may comprise, but is not limited to, a player device identifier, a player identifier, a game identifier, a game instance identifier, a video identifier, and/or a media system identifier. The player device identifier may comprise an IP address, MAC address, or any other information that may be utilized to identify the player device 200 that provided the metadata. The player identifier may comprise a username, name, or any other information that may be used or associated with the player of the player device 200. The game identifier may identify the game (e.g., the name of the game, type of the game, or the like). The game instance identifier may comprise a session identifier or any other information that identifiers the instance of the game executing on the player device 200. For example, based on the metadata may identify the player device (e.g., based on a MAC address), a player associated with the player device (e.g., based on a player device identifier), a game (e.g., based on an identifier of a game such as FIFA Football), and/or a game instance (e.g., based on a session or instance identifier).

In various embodiments, the metadata may comprise a video identifier comprising information identifying with video of the gameplay which may be shared with the media system 116. The video identifier may be associated with, for example, annotations to allow a media system 116 to identify the correct video in order to add indicators in the related timeline. The media system identifier may comprise information regarding the media system 116 including a name or other identifying information of a provider associated with the media system 116, the IP address of the media system 116, or any information regarding the software executing on the media system 116 (e.g., to assist in identifying and/or utilizing APIs of the media system 116).

In some embodiments, the metadata control module 302 may identify or retrieve trigger satisfaction triggers or any other information from the metadata. In one example, the metadata control module 302 identifiers and retrieves information based on metadata game rules. Metadata game rules are rules for retrieving or translating metadata. The rules may be different for different games, different game types, different game versions, and/or any other differences.

The metadata control module 302 may retrieve metadata game rules from the metadata game profile storage 314 based on the metadata (e.g., based on the player device identifier, a player identifier, a game identifier, and/or a game instance identifier). Those skilled in the art will appreciate that the metadata control module 302 may retrieve any number of metadata game rules from the metadata game profile storage 314 based on any information.

Although metadata game rules are described herein to assist the metadata control module 302 identifier and/or select information from the metadata, those skilled in the art will appreciate that the metadata game rules are optional. For example, the metadata may be in a common format and/or the metadata control module 302 may retrieve the desired information from the metadata without game specific metadata game rules.

The metadata game rules may include instructions to assist the metadata control module 302 to interpret or translate the metadata from the player device 200. In various embodiments, the metadata control module 302 receives the metadata from the player device 200 and identifies the trigger satisfaction indicators with or without the metadata game rules.

The annotation generation module 304 generates one or more annotations based on the trigger satisfaction indicators from the metadata control module 302. An annotation is an instruction that may be provided to a media system 116 or any digital device that may alter presentation of gameplay video such as including indications (e.g., game event marker) in a timeline associated with the gameplay video, providing information regarding content associated with one or more indications that may be displayed, labels, titles, balloons, bubbles, or the like. In various embodiments, annotations may be formatted for one or more media systems 116.

In various embodiments, the annotation module 304 identifies the media system 116 based on information from the player device 200 (e.g., from the metadata). The annotation module 304 may generate annotations that can be received by the media system 116. For example, the annotation module 304 may retrieve media system profiles (e.g., from a storage not depicted) which include media system instructions to generate the annotations to be received by the media system 116 (e.g., utilizing the correct API and/or formatting the annotations such that they may be understood by the media system 116).

Those skilled in the art will appreciate that annotations may include instructions to depict indicators at time(s), position(s) or portion(s) in a timeline associated with the video of gameplay on the media system 116. Annotations may further include labels describing events and/or occurrences either in the video or that led to the associated trigger(s) being satisfied and/or player names, titles, balloons with information to depict around or on the video, or hidden information. Annotations may include any information that describes the gameplay video and/or assists with the display of information associated with the gameplay video.

In various embodiments, the annotations include instructions to depict indicators at time(s), position(s) or portion(s) in a timeline. The annotations may be based on the one or more trigger satisfaction indicators in the metadata from the player device 200. Annotations for labels, balloons, and/or titles may also be retrieved from the metadata (e.g., metadata that identifies the trigger that was satisfied and/or the type of trigger, player name, game, game instance, or the like).

The timeline indicator module 306 may adjust timeline indicators (e.g., game event markers associated with the timeline of the video). Those skilled in the art will appreciate that trigger satisfaction may occur immediately after or upon an event occurrence. As a result, an indicator may be associated with a position in the timeline which may be too late for a viewer to view the entire event including pertinent content leading up to the event. In some embodiments, the timeline indicator module 306 adjusts the timeline indicators.

In various embodiments, the timeline indicator module 306 and/or the metadata control module 302 may retrieve timeline adjustment instructions from the metadata game profile. The timeline indicator module 306 may make adjustments to timeline indicators (e.g., instructions for game event markers or trigger satisfaction indicators) based on metadata and the timeline adjustment instructions. For example, the timeline indicator module 306 may determine trigger satisfaction type information associated with a particular trigger satisfaction indicator from the metadata. The timeline adjustment instructions may instruct the timeline indicator module 306 to adjust a timeline indicator (e.g., up a predetermined number of seconds) to better indicate the event.

Those skilled in the art will appreciate that different timeline indicators may need to be adjusted different amounts depending upon the type of event that satisfied the trigger. For example, completing an achievement is often the end of a process (e.g., defeat of an enemy). An indicator at a point in video where the enemy is defeated may not be as interesting as including the process that culminated in the achievement. In this example, the timeline indicator module 306 may position the timeline indicator at a predetermined period of time before the trigger was satisfied to assist a viewer to view more gameplay associated with the event.

In another example, the metadata may provide indications of gameplay prior to satisfaction of a trigger condition which may be utilized by the timeline indicator module 306 to position the timeline indicator of the video. For example, the metadata may indicate that events that led to the achievement began at a specific time. The timeline indicator module 306 may utilize that information to position the timeline indicator. Those skilled in the art will appreciate that timeline indicator module 306 may adjust, position, or reposition timeline indicators based on any information including, but not limited to, user preferences (e.g., received from the player device 200 and stored in the user preferences storage 316), the metadata game profile, the metadata from the player device, or the like.

Those skilled in the art will appreciate that the timeline indicator module 306 may be on the player device. For example, the timeline indicator module 306 may adjust the trigger satisfaction indicator based on, for example, the trigger being satisfied and/or a game profile (e.g., comprising timeline adjustment instructions based on the game, type of game, game version, game instance, and/or information from gameplay).

The annotation editor module 308 may provide an interface and/or tools that allow digital devices access to create instructions to generate annotations. In one example, annotations may be edited by an administrator or other user.

For example, one or more media systems 116 may be configured to receive annotations or other instructions to assist in annotating videos in a specific format or with specific commands. Those skilled in the art will appreciate that different media systems may require different commands and/or formats to allow or assist in allowing annotations in a video. In various embodiments, users (e.g., programmers, administrators, or others) may utilize the annotation editor module 308 to create a media system profile with instructions to generate annotations for a new media system

In some embodiments, the annotation editor module 308 may be utilized to annotate existing gameplay video on any number of media systems 116. In various embodiments, the annotation editor module 308 may be utilized to generate metadata game rules for retrieving information from metadata and/or generating annotations.

The media communication module 310 provides the annotations and/or any other information to the media system 116. In various embodiments, the media communication module 310 identifies the media system 116 from information contained in the metadata received from the player device 200 (e.g., the metadata comprises a media server identifier and a gameplay video identifier). In various embodiments, the media communication module 310 retrieves or receives a media system identifier from the player device 200 (e.g., from the metadata). The media communication module 310 may provide the annotations from the annotation generation module 304 based on the media system identifier.

The trigger profile module 312 enables digital devices and/or users to create, update, or modify triggers. For example, an administrator may create, update, or modify triggers associated with a game update or to improve the probability that satisfied triggers may indicate events of interest.

For example, a gaming entity may produce a new game. The gaming entity may identify achievements, goals, and/or objectives in the game. The gaming entity may also generate one or more triggers utilizing the trigger profile module 312 based on all or some of the achievements, goals, and/or objectives to flag those events in gameplay video. In various embodiments, the gaming entity may also generate triggers that are satisfied by occurrences in gameplay. In one example, the gaming entity provides one or more wincodes associated with a game. Each wincode (or a subset of wincodes) may include trigger information or other information that may assist in the generation of triggers when the wincode is generated and/or executed. In one example, some wincodes may indicate that a trigger would not be satisfied upon execution or generation of the wincode. Other wincodes (or a combination of wincodes) may indicate that a trigger would be satisfied.

In various embodiments, trigger information from multiple players and/or viewers may assist in improving which events may be correlated with trigger satisfaction such that a timeline of video is more likely to indicate events of interest. For example, when players manually indicate they wish to flag or indicate a desired occurrence in gameplay, trigger information may be generated to flag the gameplay events at that time. If enough players manually indicate a desire to flag gameplay events in the video, the trigger profile module 312 may generate a trigger defining those occurrences in gameplay as satisfying trigger conditions (e.g., thereby automatically flagging content and rendering manual indication unnecessary).

Similarly, if viewers avoid gameplay video at certain indications or begin to watch gameplay video at a game event marker and then then stop (e.g., the viewer goes to a different indication in a gameplay video timeline or the viewer terminates the video), the trigger profile module 312 may modify or delete the related trigger.

Those skilled in the art will appreciate that, over time after assessing player and viewer behavior in the aggregate, triggers may improve such that events of interest are more likely to be flagged (e.g., indicated by gameplay markers).

Similarly, those skilled in the art will appreciate that triggers may be created, modified, or deleted for an individual player based on the player's preferences, player's actions in flagging material while playing and/or a viewer's behavior when watching gameplay video. In various embodiments, each player device may comprise one or more personal trigger profiles which include triggers configured for the player based on the player's actions. In some embodiments, a player may configure their personal trigger profile based on the type of gameplay events that the player wishes to flag.

Although some embodiments describe a player device 200 as providing trigger satisfaction indicators in metadata to allow the processing server 118 to generate annotations for a media system, those skilled in the art will appreciate that the functions may be performed on any digital device. For example, the player device 200 may generate annotations based on the trigger satisfaction indicators. The player device 200 may provide the annotations to the media system 216 before, at the same time, or after gameplay video is provided. In some embodiments, the player device 200 may generate indications at times, positions, or segments of a timeline and provide the video and timeline to any other digital device (e.g., another player device or the media system 116).

In various embodiments, the processing system 118 may receive information (e.g., from the player device) associated with gameplay and may determine if a trigger is satisfied based on occurrences within the gameplay. The processing system 118 may generate annotations based on the trigger satisfaction indicators. The processing system 118 may provide the annotations to the media system 216 before, at the same time, or after gameplay video is provided to the media system 216. In some embodiments, the processing system 118 may generate indications at times, positions, or segments of a timeline and provide the video and timeline to any other digital device (e.g., the player device or the media system 116).

In some embodiments, the processing system 118 is any digital device that may control gameplay. In one example, game logic may be performed in a network system. Control signals from any number of players playing a game may be provided to the processing system 118. The processing system 118 may determine results. Video based on the results and/or any number of control signals may be rendered by the processing system 118 and/or another digital device. The rendered video may be provided to the player device(s), the media system 116, and/or the processing system 118. In this example, the processing system 118, digital device rendering the video, or other digital device may generate annotations based on the trigger satisfaction indicators as discussed herein. The processing system 118, digital device rendering the video, or other digital device may provide the annotations to the media system 216 before, at the same time, or after gameplay video is provided to the media system 216.

The metadata game profile storage 314 and the user preferences storage 316 may comprise any number and any type of storage devices and/or data structures.

FIG. 4 is a flowchart for broadcasting and identifying events of potential interest in gameplay video in some embodiments. In step 402, the trigger satisfaction module 214 may receive game triggers. The game triggers received by the trigger satisfaction module 214 may be stored in the game and trigger storage 218.

In one example, when the player device 200 receives a new game (e.g., via download or physical media such as computer readable medium), the new game may include a trigger profile indicating triggers (e.g., each trigger defining trigger conditions). The trigger profile may be available by download or from the computer readable medium. In some embodiments, a trigger profile may be downloaded from a server (e.g., from the processing system 118). Those skilled in the art will appreciate that the trigger profile may be updated or modified to add more triggers or to modify existing triggers to increase likelihood of flagging events of potential interest.

In step 404, the game controller module 202 initiates gameplay associated with game triggers. For example, the game controller module 202 may execute an instance of the game. The game controller module 202 may retrieve a trigger profile associated with the game from the game and trigger storage 218 (e.g., based on a game identifier). The trigger profile may comprise triggers defining trigger conditions that, when satisfied, may trigger a game satisfaction indicator to be associated with time(s), position(s), or portion(s) of gameplay video.

In step 406, the game controller module 202 and/or the interaction module 204 may receive game control signals (e.g., from a joystick or other input device) from any number of players. The game controller module 202 may execute gameplay based on the user control signals. The game control signals may influence gameplay.

In step 408, the trigger satisfaction module 214 may determine whether one or more events that occur during the gameplay satisfy one or more trigger conditions of at least one game trigger. In various embodiments, the trigger satisfaction module 214 monitors gameplay events (e.g., utilizing or monitoring wincodes, achievements or the like). The trigger satisfaction module 214 may determine if the events satisfy one or more trigger conditions. When a trigger's trigger conditions are satisfied (e.g., over time or within a predetermined period of time if there are more than one trigger conditions associated with a single trigger), the trigger satisfaction module 214 may generate a trigger satisfaction indicator in step 410.

The trigger satisfaction module 214 may determine an achievement, goal, objective, meeting, or the like satisfies one or more triggers. The trigger satisfaction module 214 may, in some embodiments, receive a manual indication from a player to generate a trigger satisfaction indicator. The trigger satisfaction indicator may indicate a time, position, or portion of gameplay video associated with the events that generated the video.

In various embodiments, the trigger satisfaction module 214 may modify or adjust one or more trigger satisfaction indicators. In one example, the trigger satisfaction module 214 may detect that events satisfied one or more trigger conditions associated with a trigger. If a trigger satisfaction indicator is associated with a position in gameplay video that satisfied a final trigger condition, the position in gameplay video may be insufficient for a viewer to view an entire event (e.g., from the beginning of the event) or may provide insufficient time to view the event. The trigger satisfaction module 214 may adjust the trigger satisfaction indicator such that the trigger satisfaction indicator is associated with an earlier or later position of the gameplay video.

For example, the trigger satisfaction module 214 may retrieve a trigger profile that may indicate trigger satisfaction indicator adjustments for any number of triggers. When a trigger associated with a trigger satisfaction indicator adjustment is satisfied and a trigger satisfaction indicator is generated, the trigger satisfaction module 214 may retrieve a trigger satisfaction indicator adjustment based on the trigger and adjust the trigger satisfaction indicator. In various embodiments, the player of the player device 200 may perform adjustments manually (e.g., via the interaction module 204). Those skilled in the art will appreciate that upon satisfaction of a trigger, the trigger satisfaction module 214 may, without adjustment, generate a trigger satisfaction indicator associated with a different position (e.g., an earlier position) of gameplay video (e.g., associating a position that occurs earlier than the time that the trigger is satisfied).

In step 412, the trigger satisfaction indicators are associated with gameplay video to generate one or more game event markers. In some embodiments, a metadata generation module 216 provides the trigger satisfaction indicators to a processing system 118 as metadata (e.g., or any data). The metadata generation module 216 may also include a gameplay video identifier and/or an identifier of a media system 116 that provides access to the gameplay video. A metadata control module 302 of the processing system 118 may receive the metadata from the player device 200 and may identify the trigger satisfaction indicators. The annotation generation module 304 may generate annotations to provide to the media system 216 (e.g., based on a media system profile) and the media communication module 310 may provide the annotations to the media system 216. The annotations may include the gameplay video identifier as well as any other information or instructions. The media system 116 may receive the annotations and, based on the annotations and the gameplay video identifier and generate (and/or display) the game event markers in a timeline associated with the gameplay video (e.g., see FIG. 7). Annotations may further include instructions to display a title, links, labels for game event markers, advertisements, or the like.

In step 414, the media system 116 may provide access to gameplay video and the annotated timeline, each game event marker marking a position in the timeline to enable a viewer to jump to one or more events contained in the gameplay video.

FIG. 5 is a flowchart for generating annotations based on metadata from the player device 200 to indicate events of potential interest in gameplay video in some embodiments. In step 502, the trigger profile module 312 generates game triggers associated with a game. The trigger profile module 312 may be utilized to generate triggers of a game or group of games (e.g., groups of games that are the same but different versions or editions or groups of games a similar type such as sports games). The trigger profile module 312 may be configured or utilized by a game developer, player, user, administrator, or any digital device.

In step 504, the trigger profile module 312 may send one or more triggers (e.g., a trigger profile associated with a game or a group of games) to the player device 200 or any distribution device (e.g., for downloading or including in computer readable medium with executable code of the game).

In step 506, the metadata control module 302 may receive metadata including trigger satisfaction indicators from player device 200. In various embodiments, a player plays a game utilizing the player device 200 (e.g., utilizing the game controller module 202 and/or the interaction module 204). The trigger satisfaction module 214 may monitor gameplay and determine if occurrences or events during gameplay satisfy one or more triggers. The trigger satisfaction module 214 and/or the metadata generation module 216 may generate trigger satisfaction indicators associated with satisfied triggers and provide the trigger satisfaction indicators to the metadata control module 302 of the processing system 118.

The processing system 118 may retrieve the trigger satisfaction indicators from the metadata. The processing system 118 may retrieve a metadata game profile from the metadata game profile storage 314 (e.g., retrieval may be based on a game identifier, session identifier, or any other information in the metadata or associated with the metadata) in step 508. The metadata control module 302 may retrieve the trigger satisfaction indicators from the metadata or translate the metadata to generate the trigger satisfaction indicators based on the metadata game profile. In some embodiments, the metadata is compressed and/or encoded (e.g., encrypted or formatted in a proprietary format). The metadata control module 302 may decompress, decrypt, and/or access information (e.g., trigger satisfaction indicators) within the metadata based on the metadata game profile.

In step 510, the timeline indicator module 306 may modify or adjust one or more trigger satisfaction indicators (e.g., associated with timeline indicators or game event markers). As discussed herein, the trigger satisfaction module 214 may detect that events satisfied one or more trigger conditions associated with a trigger. If a trigger satisfaction indicator is associated with a position in gameplay video that satisfied a trigger condition, the position in gameplay video may be insufficient for a viewer to view an entire event (e.g., from the beginning of the event) or may provide insufficient time to view the event. The timeline indicator module 306 may adjust the trigger satisfaction indicator such that the trigger satisfaction indicator is associated with an earlier or later position of the gameplay video. In some embodiments, the timeline indicator module 306 adjusts annotations or the like to adjust the position of the game marker in the timeline of the gameplay video.

In step 512, the annotation generation module 304 generates annotations including game event markers based on metadata. As discussed herein, in some embodiments, a metadata generation module 216 provides the trigger satisfaction indicators to a processing system 118 as metadata (e.g., or any data). The metadata generation module 216 may also include a gameplay video identifier and/or an identifier of a media system 116 that provides access to the gameplay video. A metadata control module 302 of the processing system 118 may receive the metadata from the player device 200 and may identify the trigger satisfaction indicators. The annotation generation module 304 may generate annotations based on the trigger satisfaction indicators (and/or other metadata) to provide to the media system 216 (e.g., based on a media system profile). The annotations may include the gameplay video identifier as well as any other information or instructions. The media system 116 may receive the annotations and, based on the annotations and the gameplay video identifier, generate (and/or display) the game event markers in a timeline associated with the gameplay video (e.g., see FIG. 7). Annotations may further include instructions to display a title, links, labels for game event markers, advertisements, or the like.

In step 514, the media communication module 310 may provide the annotations to the media system 216. In some embodiments, the media communication module 310 retrieves a media system identifier and/or address of the media system 116 from the player device 200 (e.g., from the metadata). The media communication module 310 may also receive a gameplay video identifier from the player device 200. The media communication module 310 may retrieve information regarding communication, format, compression, or any instructions from a media system profile, in some embodiments. The media communication module 310 may, for example, provide the annotations from the annotation generation module 304 to the media system 116 utilizing the media system identifier, address of the media system 116, and/or information from the media system profile.

FIG. 6 is a depiction 600 of a timeline 602 associated with a gameplay video in some embodiments. The timeline 602 may comprise game event marker 604 (as well as others). A game event marker 604 indicates one or more events that occurred during gameplay that satisfied one or more triggers. The game event marker 604 is associated with label 606 (“Mikulthegreat Kills Silkichicken”). Other events are indicated by labels and game marker 608 (“Blue Tower 1 Destroyed”), 610 (“Mikulthegreat alone 1v3, dies”), 612 (“Blue Tower 2 Destroyed”), 614 (“Mikulthegreat alone 1v4, dies”), and 616 (“Mikulthegreat Quadrakill”). Those skilled in the art will appreciate that there may be any number of labels, game markers, titles, colors, or other information. The labels and game markers may be generated by a media system 116 based on annotations from the annotation generation module 304.

In some embodiments, the timeline 602 depicts trigger satisfaction indicators that are to be translated or converted into annotations (e.g., instructions) to be provided to a media system 116 to enable generation of the game markers.

FIG. 7 depicts a video player 700 for gameplay video 702 with a timeline 704 and annotations indicating events of potential interest in some embodiments. The video player 700 may be executed on or provided to a player device 200 by the media system 116. In some embodiments, the video player 700 is executed on the player device 200 and the media system 116 provides access to and/or downloads (or streams) the gameplay video 702.

The media system 116 may receive the annotations from the processing system 118 to generate the game event markers 706, 708, 710, 712, 714, 716, and 720. There may be any number of game event markers. The media system 116 may also receive annotation(s) from the processing system 118 to provide labels or other information to be displayed. In this example, each game event marker may be associated with a label that remains hidden until a mouse pointer or cursor engages (e.g., hovers over or clicks) the game event marker. The label 718 (“Mikulthegreat Quadrakill”) is associated with game marker 716.

Those skilled in the art will appreciate that annotations (e.g., labels and game markers) may be modified in some embodiments. For example, in some embodiments, a player or digital device with sufficient rights may add, remove, or modify annotations (e.g., either on the player device or utilizing the processing system 118. In one example, a player may remove some game event markers that flag events that are not considered to be interesting but may add some markers in different positions of the gameplay video (e.g., utilizing the annotation editor module 308 on the processing system 118 and/or the player device 200).

FIG. 8 is a block diagram of an exemplary digital device 800. The digital device 800 comprises a processor 802, a memory system 804, a storage system 806, a communication network interface 808, an I/O interface 810, and a display interface 812 communicatively coupled to a bus 814. The processor 802 is configured to execute executable instructions (e.g., programs). In some embodiments, the processor 802 comprises circuitry or any processor capable of processing the executable instructions.

The memory system 804 is any memory configured to store data. Some examples of the memory system 804 are storage devices, such as RAM or ROM. The memory system 804 can comprise the ram cache. In various embodiments, data is stored within the memory system 804. The data within the memory system 804 may be cleared or ultimately transferred to the storage system 806.

The storage system 806 is any storage configured to retrieve and store data. Some examples of the storage system 806 are flash drives, hard drives, optical drives, and/or magnetic tape. In some embodiments, the digital device 800 includes a memory system 804 in the form of RAM and a storage system 806 in the form of flash data. Both the memory system 804 and the storage system 806 comprise computer readable media which may store instructions or programs that are executable by a computer processor including the processor 802.

The communication network interface (com. network interface) 808 can be coupled to a network (e.g., communication network 102) via the link 816. The communication network interface 808 may support communication over an Ethernet connection, a serial connection, a parallel connection, or an ATA connection, for example. The communication network interface 808 may also support wireless communication (e.g., 802.11 a/b/g/n, WiMax). It will be apparent to those skilled in the art that the communication network interface 808 can support many wired and wireless standards.

The optional input/output (I/O) interface 810 is any device that receives input from the user and output data. The optional display interface 812 is any device that is configured to output graphics and data to a display. In one example, the display interface 812 is a graphics adapter. It will be appreciated that not all digital devices 800 comprise either the I/O interface 810 or the display interface 812.

It will be appreciated by those skilled in the art that the hardware elements of the digital device 800 are not limited to those depicted in FIG. 8. A digital device 800 may comprise more or less hardware elements than those depicted. Further, hardware elements may share functionality and still be within various embodiments described herein. In one example, encoding and/or decoding may be performed by the processor 802 and/or a co-processor located on a GPU (i.e., Nvidia).

The above-described functions and components can be comprised of instructions that are stored on a storage medium such as a computer readable medium. The instructions can be retrieved and executed by a processor. Some examples of instructions are software, program code, and firmware. Some examples of storage medium are memory devices, tape, disks, integrated circuits, and servers. The instructions are operational when executed by the processor to direct the processor to operate in accord with embodiments of the present invention. Those skilled in the art are familiar with instructions, processor(s), and storage medium.

The present invention is described above with reference to exemplary embodiments. It will be apparent to those skilled in the art that various modifications may be made and other embodiments can be used without departing from the broader scope of the present invention. Therefore, these and other variations upon the exemplary embodiments are intended to be covered by the present invention. 

The invention claimed is:
 1. A system comprising: a memory comprising instructions; one or more processors configured to execute the instructions to: receive metadata associated with gameplay generated based on received user control signals, the metadata comprising a trigger; determine whether one or more events that occur during the gameplay satisfy one or more trigger conditions of the trigger; generate an annotation based on the one or more trigger satisfaction indicators, the annotation comprising an instruction to alter a rendered simulation of the gameplay.
 2. The system of claim 1, wherein the annotation comprises an instruction to generate one or more visuals to appear over the rendered simulation of the gameplay.
 3. The system of claim 1, wherein the metadata is received by a processing system from a player device, and the one or more processors are further configured to execute the instructions to provide the annotation to the player device, or to a media system when the player device provides authorization to the media system to provide access to video of the gameplay.
 4. The system of claim 1, wherein the user control signals are generated by a user, and the one or more processors are further configured to execute the instructions to receive instructions from the user to restrict the media system from access to video of the gameplay.
 5. The system of claim 1, wherein the metadata further comprises information to generate the one or more trigger satisfaction indicators, a description of the trigger, a player device identifier, a player identifier, a game identifier, a game instance identifier, a video identifier, or a media system identifier.
 6. The system of claim 1, wherein the metadata is received by a processing system from a player device during simulation of the gameplay, after the simulation the gameplay, or as permitted by network connectivity between the player device and the processing system.
 7. The system of claim 1, wherein the metadata is received by a processing system from a player device, and the one or more processors are further configured to execute the instructions to: receive, by the processing system, simulation results from a simulation of the gameplay used for rendering the gameplay; and transmit the simulation results to a media system during the simulation of the gameplay, after the simulation of the gameplay, or as permitted by network connectivity between the player device and the processing system.
 8. The system of claim 1, wherein the one or more trigger satisfaction indicators identify a time, position, or portion of an event of interest in the gameplay.
 9. The system of claim 1, wherein the trigger is selected from a trigger profile for the game, the trigger profile obtainable after selection of the game by a user providing the user control signals, and wherein the trigger can be generated, modified, or deleted based on indications of a plurality of players of the game.
 10. The system of claim 9, wherein the trigger profile can be configured for the user based on the user's actions in the game.
 11. A method comprising: receiving metadata associated with gameplay generated based on received user control signals, the metadata comprising a trigger; generating one or more trigger satisfaction indicators based on whether one or more events that occur during the gameplay satisfy one or more trigger conditions of the trigger, the one or more trigger satisfaction indicators identifying a time, position, or portion of an event of interest in the gameplay; and generating an annotation based on the one or more trigger satisfaction indicators, the annotation comprising an instruction to alter a rendered simulation of the gameplay.
 12. The method of claim 11, wherein the annotation comprises an instruction to generate one or more visuals to appear over the rendered simulation of the gameplay.
 13. The method of claim 11, wherein the metadata is received by a processing system from a player device, and the method further comprises providing the annotation to the player device, or to a media system when the player device provides authorization to the media system to provide access to video of the gameplay.
 14. The method of claim 13, wherein the user control signals are generated by a user, and the method further comprises receiving instructions from the user to restrict the media system from access to video of the gameplay.
 15. The method of claim 11, wherein the metadata further comprises information to generate the one or more trigger satisfaction indicators, a description of the trigger, a player device identifier, a player identifier, a game identifier, a game instance identifier, a video identifier, or a media system identifier.
 16. The method of claim 11, wherein the metadata is received by a processing system from a player device during simulation of the gameplay, after the simulation the gameplay, or as permitted by network connectivity between the player device and the processing system.
 17. The method of claim 11, wherein the metadata is received by a processing system from a player device, and the method further comprises: receiving, by the processing system, simulation results from a simulation of the gameplay used for rendering the gameplay; and transmitting the simulation results to a media system during the simulation of the gameplay, after the simulation of the gameplay, or as permitted by network connectivity between the player device and the processing system.
 18. The method of claim 11, wherein the trigger is selected from a trigger profile for the game, the trigger profile obtainable after selection of the game by a user providing the user control signals, and wherein the trigger can be generated, modified, or deleted based on indications of a plurality of players of the game.
 19. The method of claim 18, wherein the trigger profile can be configured for the user based on the user's actions in the game.
 20. A non-transitory computer readable medium comprising executable instructions, the instructions being executable by a processor to perform a method, the method comprising: receiving metadata associated with gameplay generated based on received user control signals, the metadata comprising a trigger; generating one or more trigger satisfaction indicators based on whether one or more events that occur during the gameplay satisfy one or more trigger conditions of the trigger, the one or more trigger satisfaction indicators identifying a time, position, or portion of an event of interest in the gameplay; and generating an annotation based on the one or more trigger satisfaction indicators, the annotation comprising an instruction to generate one or more visuals to appear over the rendered simulation of the gameplay. 